Ultrasound-Targeted Microbubble Destruction Delivery of Insulin-Like Growth Factor 1 cDNA and Transforming Growth Factor Beta Short Hairpin RNA Enhances Tendon Regeneration and Inhibits Scar Formation In Vivo.

Q1 Medicine Human Gene Therapy Clinical Development Pub Date : 2018-12-01 Epub Date: 2018-10-25 DOI:10.1089/humc.2018.121

Xi Xiang, Qianying Leng, Yuanjiao Tang, Liyun Wang, Jianbo Huang, Yi Zhang, Li Qiu

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引用次数: 5

Abstract

Ultrasound-targeted microbubble destruction (UTMD), which has been successfully used for the treatment of many diseases, offers a promising noninvasive approach for target-specific gene delivery. This study investigated the UTMD delivery of insulin-like growth factor 1 (IGF-1) cDNA and transforming growth factor beta (TGF-β) short hairpin RNA for Achilles tendon injury in rats. Briefly, 168 rats with an injured Achilles tendon were randomly divided into seven groups: (1) IGF-1 + UTMD, (2) TGF-β + UTMD, (3) IGF-1 + TGF-β + UTMD, (4) control, (5) IGF-1, (6) TGF-β, and (7) IGF-1 + TGF-β. At 2, 4, 8, and 12 weeks post treatment, six rats from each group were euthanized. IGF-1 expression and TGF-β expression were evaluated using an adhesion index score, pathological examination, quantitative real-time reverse transcription polymerase chain reaction, Western blotting, and biomechanical measurement. The lowest adhesion index score, the lightest inflammation, the highest 4,6-diamidino-2-phenylindole nuclear counter signals, the highest IGF-1 expression, and the lowest TGF-β expression were observed in group 3 (p < 0.05). Furthermore, higher expression of IGF-1 mRNA was observed in groups 1 and 3, while lower expression of TGF-β mRNA was observed in groups 2 and 3 (p < 0.05). The UTMD groups showed a higher transfection efficiency than the groups without UTMD. Downregulation of type III collagen and upregulation of type I collagen were observed in groups 1-3. Moreover, during weeks 4, 8, and 12, greater maximum load and tensile stress were observed in group 3 compared to the other groups (p < 0.05), while the highest tendon stiffness was observed in week 12 (p < 0.05). To conclude, the results suggest that UTMD delivery of IGF-1 and TGF-β offers a promising treatment approach for tendon injury in vivo.

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超声靶向微泡破坏传递胰岛素样生长因子1 cDNA和转化生长因子β短发夹RNA促进肌腱再生并抑制体内瘢痕形成

超声靶向微泡破坏(UTMD)已成功用于多种疾病的治疗，为靶向基因传递提供了一种有前途的无创方法。本研究探讨胰岛素样生长因子1 (IGF-1) cDNA和转化生长因子β (TGF-β)短发夹RNA在大鼠跟腱损伤中的UTMD传递。将168只跟腱损伤大鼠随机分为7组:(1)IGF-1 + UTMD， (2) TGF-β + UTMD， (3) IGF-1 + TGF-β + UTMD，(4)对照，(5)IGF-1， (6) TGF-β， (7) IGF-1 + TGF-β。在治疗后2、4、8和12周，每组6只大鼠实施安乐死。采用粘附指数评分、病理检查、实时定量逆转录聚合酶链反应、Western blotting和生物力学测量来评估IGF-1和TGF-β的表达。第3组黏附指数评分最低，炎症反应最轻，4,6-二氨基-2-苯基吲哚核计数信号最高，IGF-1表达最高，TGF-β表达最低(p

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来源期刊

Human Gene Therapy Clinical Development CRITICAL CARE MEDICINEMEDICINE, RESEARCH &-MEDICINE, RESEARCH & EXPERIMENTAL

CiteScore

7.20

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0.00%

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期刊介绍： Human Gene Therapy (HGT) is the premier, multidisciplinary journal covering all aspects of gene therapy. The Journal publishes important advances in DNA, RNA, cell and immune therapies, validating the latest advances in research and new technologies.